Signal peptides and transmembrane helices both contain a stretch of hydrophobic amino acids. This common feature makes it difficult for signal peptide and transmembrane helix predictors to correctly assign identity to stretches of hydrophobic residues near the N-terminal methionine of a protein sequence. The inability to reliably distinguish between N-terminal transmembrane helix and signal peptide is an error with serious consequences for the prediction of protein secretory status or transmembrane topology. In this study, we report a new method for differentiating protein N-terminal signal peptides and transmembrane helices. Based on the sequence features extracted from hydrophobic regions (amino acid frequency, hydrophobicity, and the sta...
BACKGROUND: Physicochemical properties are frequently analyzed to characterize protein-sequences of ...
Background: Physicochemical properties are frequently analyzed to characterize protein-sequences of ...
We describe a neural network system that predicts the locations of transmembrane helices in integral...
An inherent problem in transmembrane protein topology prediction and signal peptide prediction is th...
Membrane proteins fulfil a number of tasks in cells, including signalling, cell-cell interaction, an...
Transmembrane proteins make up a large and important class of proteins. About 20% of all genes encod...
Signal peptides are short, cleavable, N-terminal peptides (from 15 up to 50 residue long) that are p...
Background: Amino-terminal signal peptides (SPs) are short regions that guide the targeting of secre...
Transmembrane helix (TMH) topology prediction is becoming a focal problem in bioinformatics because ...
We have developed a new method for identification of signal peptides and their cleavage sites based ...
Prediction of transmembrane (TM) helices by statistical methods suffers from lack of sufficient trai...
Background and aims: Signal peptides are central to biological processes in that they direct protein...
The strip-of-helix hydrophobicity algorithm was devised to identify protein sequences which, when co...
Previously, we introduced a neural network system predicting locations of transmembrane helices (HTM...
signal peptide prediction accuracy by simulated neural network I.Ladunga1, F.Czakd2, I.Csabai2 and T...
BACKGROUND: Physicochemical properties are frequently analyzed to characterize protein-sequences of ...
Background: Physicochemical properties are frequently analyzed to characterize protein-sequences of ...
We describe a neural network system that predicts the locations of transmembrane helices in integral...
An inherent problem in transmembrane protein topology prediction and signal peptide prediction is th...
Membrane proteins fulfil a number of tasks in cells, including signalling, cell-cell interaction, an...
Transmembrane proteins make up a large and important class of proteins. About 20% of all genes encod...
Signal peptides are short, cleavable, N-terminal peptides (from 15 up to 50 residue long) that are p...
Background: Amino-terminal signal peptides (SPs) are short regions that guide the targeting of secre...
Transmembrane helix (TMH) topology prediction is becoming a focal problem in bioinformatics because ...
We have developed a new method for identification of signal peptides and their cleavage sites based ...
Prediction of transmembrane (TM) helices by statistical methods suffers from lack of sufficient trai...
Background and aims: Signal peptides are central to biological processes in that they direct protein...
The strip-of-helix hydrophobicity algorithm was devised to identify protein sequences which, when co...
Previously, we introduced a neural network system predicting locations of transmembrane helices (HTM...
signal peptide prediction accuracy by simulated neural network I.Ladunga1, F.Czakd2, I.Csabai2 and T...
BACKGROUND: Physicochemical properties are frequently analyzed to characterize protein-sequences of ...
Background: Physicochemical properties are frequently analyzed to characterize protein-sequences of ...
We describe a neural network system that predicts the locations of transmembrane helices in integral...